US20080223550A1

US20080223550A1 - Fastening and Joining Element for Heat Exchangers, and Heat Exchanger Assembly in a Motor Vehicle

Info

Publication number: US20080223550A1
Application number: US12/066,920
Authority: US
Inventors: Dirk Kersting; Andre Schmidt; Walter Korte
Original assignee: HBPO GmbH
Current assignee: HBPO GmbH
Priority date: 2005-09-15
Filing date: 2006-08-31
Publication date: 2008-09-18
Also published as: DE102005043937B4; JP2009508079A; ATE548209T1; US8522860B2; DE102005043937A1; CN101263021A; EP1910119A1; CN101263021B; WO2007031197A1; EP1910119B1; JP4958243B2; ES2380953T3

Abstract

The invention relates to a fastening and joining element (4) for fixing and connecting heat exchangers of a heat exchanger assembly in a motor vehicle. Said fastening and joining element (4) comprises at least one hole (4 b) for positively accommodating a heat exchanger as well as a fastening part (4 a) encompassing a profiled fastening member.

Description

The invention relates to a fastening and connecting element as per the preamble of patent claim 1 and to an arrangement of heat exchangers in a motor vehicle as per the preamble of patent claim 14.
Arrangements of heat exchangers in a motor vehicle are known as so-called cooling modules, that is to say as a pre-assembled structural unit, which is for example composed of a coolant cooler, a refrigerant condenser, a charge-air cooler and/or an oil cooler which are cooled at the secondary side by ambient air. The cooling module can also be connected to a so-called assembly carrier and expanded to form a front module which includes additional components such as the headlights of the vehicle. A problem with cooling modules of said type is the fastening of the heat exchangers to one another and with respect to a module carrier or assembly carrier. If the heat exchangers have collecting tanks composed of plastic, that is to say for example coolant coolers, it is possible for fastening elements to be injection-molded, from plastic, onto the water tanks in simple manner. In other heat exchangers which are composed entirely of metal parts, for example fully-aluminum heat exchangers, said favorable fastening possibilities do not exist, and it is in fact necessary for brackets to additionally be fastened to the fully-metal heat exchangers, for example by means of soldering, which is expensive.
DE 601 00 953 T2 (EP 1 319 579 B1) has disclosed a front module for motor vehicles which comprises a frame-shaped assembly carrier which holds individual cooling components such as a coolant cooler and a condenser. Here, both heat exchangers are in each case supported and held with respect to the assembly carrier at their lower sides by means of support disks, while said heat exchangers are connected to the assembly carrier at their upper sides by means of clip connections in the form of additional metal clamps. A disadvantage of the known fastening is that the heat exchangers must be adapted specifically to the selected type of fastening, that is to say they must be provided with specific retaining pins.
EP 1 413 501 A1 has disclosed a further front module for motor vehicles which has an assembly carrier which is embodied as an open frame and which is closed off at its upper side by means of a movable cross member, a so-called drawbridge. A coolant cooler and a condenser are held in the assembly carrier, which coolant cooler and condenser are fastened with respect to the assembly carrier at their lower and upper sides in each case by means of support plates. Here, mounting pins which are attached to the heat exchangers engage into bores of the support plates. A disadvantage of said type of fastening is likewise that the heat exchangers must be fitted with additional fastening elements, in this case mounting pins, which makes the production of said heat exchangers more expensive.
DE 297 12 351 U1 has disclosed an arrangement of heat exchangers in a motor vehicle, a cooling module, composed of a coolant cooler and a refrigerant condenser. The coolant cooler is produced mechanically, that is to say it has a collecting or water tank composed of plastic which is mechanically connected to a tube plate by means of a crimped connection. Latching and retaining elements are injection-molded onto the plastic water tank, which latching and retaining elements serve for the fastening of further cooling components. The condenser is produced as a fully-aluminum heat exchanger with collecting tubes and collectors composed of aluminum materials. Fastening lugs in the form of sheet aluminum parts are soldered on to the condenser, that is to say on to its collecting tank, which fastening lugs are connected and latched to the injection-molded latching connection of the plastic water tank. A disadvantage of said solution is the additional structural and production-related expenditure which is necessary for the attachment of the additional retaining lugs to the condenser.
It is an object of the present invention to create a simplified and cost-effective solution for fastening heat exchangers to one another and with respect to a carrier which is supported on the vehicle. It is also an object of the present invention to create, in an arrangement of heat exchangers in a motor vehicle, a simple and cost-effective fastening, with it being possible for the heat exchangers, in particular those of fully-aluminum design, to be used without it being necessary for further fastening means to be attached.
Said object is achieved initially by the features of patent claim 1. Advantageous embodiments of the invention can be gathered from the subclaims.
According to the invention, the fastening and connecting element is composed of a receiving opening, which receives a heat exchanger in a form-fitting manner, and a fastening part, by means of which the fastening and connecting element can be fastened to another part, for example to another heat exchanger or to an assembly carrier. The fastening part has a fastening profile, for example a U-shaped profile, which can be joined to a corresponding mating profile on a heat exchanger or on an assembly carrier and therefore generates a form-fitting action, in particular an anti-twist mechanism. The fastening profile can also be of box-shaped design, that is to say can have four contact faces which are arranged approximately at right angles to one another and which encompass a corresponding mating piece, a box-shaped stub. Said stub can advantageously be formed as a screw dome from plastic which is arranged and injection-molded either on a heat exchanger with plastic tanks or an assembly carrier composed of plastic. The fastening element is then additionally secured by means of a self-tapping screw which is screwed into the screw dome. The receiving opening of the fastening and connecting element is adapted to the heat exchanger which is to be fastened, for example to the collecting tube of a fully-aluminum condenser. The receiving opening is in effect embodied as a pocket which can be plugged at the end side onto the collecting tube of the condenser so as to be held without play. Said re-usable fastening and connecting element obtains the advantage of a simple and cost-effective fastening of two heat exchangers, in particular of a coolant cooler with plastic tanks and a fully-metal heat exchanger such as a condenser. The condenser requires no fastening means which must be additionally soldered on and can therefore be produced in a “fastening-neutral” fashion, which reduces the production costs of the condenser. The fastening projection, embodied in particular as a screw dome on the coolant cooler, is likewise simple and cost-effective to produce—it increases the production costs of the cooler to only an insignificant extent, or not at all.
According to one advantageous embodiment of the invention, the fastening and connecting element has two receiving openings which are arranged coaxially in series and which are divided at the end side by a partition. In this way, it is possible for the fastening and connecting element to be used for both end sides of the condenser, that is to say to be used in a “reversed” fashion.
According to a further advantageous embodiment of the invention, the fastening and connecting element has a second receiving opening which differs from the first receiving opening and which is arranged laterally adjacent to the first and is likewise embodied as a type of pocket. The second receiving opening is also adapted in terms of its profile to a further heat exchanger which is to be received, for example to a fully-aluminum heat exchanger which does not have a plastic water tank but rather an aluminum water tank. The latter is generally of approximately box-shaped design and can therefore be encompassed easily by a corresponding box-shaped profile of the receiving opening. Both receiving openings which are arranged adjacent to one another can therefore be pushed at the same time over the end sides of two heat exchangers which are arranged parallel to one another, and then hold the latter together in the manner of a clamp. With the fastening part, the fastening and connecting element can be fastened to an assembly carrier which preferably has a profiled screw dome. It is thereby possible for both heat exchangers to be connected to one another and fastened to the assembly carrier with minimal production expenditure. The fully-metal heat exchanger—like the condenser—therefore requires no additional fastening means.
In one advantageous embodiment of the invention, the fastening and connecting element is formed as a plastic injection-molded part, and can therefore be produced in a cost-effective manner and fits onto the heat exchanger as if “cast on”, which ensures a play-free seat.
In a further advantageous embodiment of the invention, an elastic compensating element is arranged in one receiving opening, preferably in the larger receiving opening, which elastic compensating element is supported against the end side of the coolant tank. This creates tolerance compensation between the two heat exchangers, the coolant cooler and the condenser, which expand to different extents during operation.
The object of the invention is also achieved by means of the features of patent claim 16, that is to say for an arrangement of heat exchangers which are connected to form a structural unit or a module and which are connected by means of the fastening elements according to the invention or are fastened to an assembly carrier of a front module. The fastening elements according to the invention are on the one hand suitable for the connection of heat exchangers of a cooling module which is composed of a mechanically joined heat exchanger with plastic tanks and a fully-metal heat exchanger. In addition, the enhanced design of the fastening and connecting element according to the invention with two receiving openings is particularly suitable for the connection of two fully-metal heat exchangers, for example a condenser and a coolant cooler, which are at the same time fastened to a module carrier. In each case four connecting and fastening elements are preferably used, that is to say at the four corner points of the heat exchangers. The assembly of the heat exchangers is conceivably simple, since the fastening and connecting elements are merely pushed onto the end or corner regions of the heat exchangers from both sides in the manner of caps.

Exemplary embodiments of the invention are illustrated in the drawing and are explained in more detail below.

In the drawing:

FIG. 1 shows a detail of a cooling module with a fastening and connecting element according to the invention (first exemplary embodiment),

FIG. 2 shows a further detail of the cooling module as per FIG. 1,

FIG. 3 a,

FIG. 3 b show the fastening and connecting element according to the invention in different isometric illustrations,

FIG. 4 shows a detail of a further cooling module with a second exemplary embodiment of the fastening and connecting element according to the invention,

FIG. 5 shows another isometric illustration of the cooling module as per FIG. 4,

FIG. 6 shows the second exemplary embodiment of the fastening and connecting element according to the invention,

FIG. 7 shows the fastening and connecting element as per FIG. 6 in another isometric illustration.

FIG. 1 shows a detail of a cooling module 1 in an isometric illustration. The cooling module 1 is composed of a mechanically produced coolant cooler 2 and a soldered condenser of fully-aluminum design. The two heat exchangers 2, 3 are connected to one another by means of a fastening and connecting element 4, while the coolant cooler 2, referred to below for short as the cooler 2, is connected to a module or assembly carrier 6 by means of a latching connection 5 which is not explained in any more detail. The cooler 2 is therefore the carrier for the condenser 3, while the module carrier 6 is the carrier for the entire cooling module with respect to a motor vehicle (not illustrated). Instead of the module carrier 6, it is likewise possible for an assembly carrier of a front module (not illustrated) to be the carrier of the cooling module 1. The cooler 2 has a coolant tank 7 composed of plastic, on the longitudinal side, which faces toward the condenser 3, of which a screw dome 8 is injection-molded, which screw dome 8 is partially hidden by the fastening and connecting element 4 which is placed on and connected to it. The condenser 3 has a collecting tube 9 which is received and held in a form-fitting manner by the fastening and connecting element 4. In total—though this is not illustrated—four fastening and connecting elements 4 are provided for fastening the condenser 3 and cooler 2 to one another, specifically in each case—as illustrated—at the corner regions.
FIG. 2 shows the cooling module 1 from another perspective, that is to say with a view directed at the underside of the collecting tube 9 and of the fastening and connecting element 4. The same reference symbols as those in FIG. 1 are used for identical parts. As can be seen from the illustration, the fastening and connecting element 4 surrounds the end-side end of the collecting tube 9 substantially on three sides, while the fourth, the lower side, on which flat tubes 3 a are arranged, remains free. The geometry and function of the fastening and connecting element 4 is explained in more detail below.
FIG. 3 a and FIG. 3 b show the fastening and connecting element 4 (also referred to below for short as element 4) in two different perspectives as an individual part. The element 4 has, at one side, a box-shaped fastening part 4 a and, at the other side, two receiving openings 4 b, 4 c which are arranged coaxially with respect to one another and which are divided from one another by a partition 4 d and are open at the end side in opposite directions. The two receiving openings 4 b, 4 c have a profile which is approximately C-shaped and which is matched to the profile of the collecting tube 9 (cf. FIG. 2). In FIGS. 1 and 2, the receiving opening 4 b receives the end-side end of the collecting tube 9 in a form-fitting manner. The fastening part 4 a is designed as an open box with a base 4 e in which is arranged an opening 4 f formed as a slot. In FIG. 1 and FIG. 2, the box 4 a is placed over the screw dome 8, is held in a form-fitting manner and is fastened to the coolant tank 7 by means of a self-tapping screw (not illustrated) which is inserted through the opening 4 f. The element 4 can be used in a “reversed” fashion, that is to say both for the right-hand and also for the left-hand end side of the collecting tube 9, which end sides are received in the first case by the receiving opening 4 b and in the other case by the receiving opening 4 c. The support in the longitudinal direction of the collecting tube 9 takes place by means of the partition 4 d. The element 4 can preferably be produced as a plastic injection-molded part.
FIG. 4 shows a further exemplary embodiment of the invention for a front module 10 which is illustrated as a detail in a 3-D illustration. An assembly carrier 11 of the front module 10 is the carrier of two heat exchangers, a fully-aluminum coolant cooler 12 and a fully-aluminum condenser 13—the two heat exchangers 12, 13 are thus fully soldered. The assembly carrier 11 can preferably be produced from plastic and has a screw dome 14 which is injection-molded on and to which a fastening and connecting element 15 (second embodiment) is fastened. The latter engages, with two receiving openings which are arranged adjacent to one another and which are to be explained below, over the corner regions of the two fully- metal heat exchangers 12, 13, with the fully-metal cooler 12 having an approximately box-shaped coolant tank 16 and the condenser 13 having a substantially round cylindrical collecting tube 17.
FIG. 5 shows the detail of the front module 10 in another perspective, with the same reference symbols again being used for identical parts. It can be seen from the illustration that the fastening and connecting element 15 engages both in a form-fitting manner around the screw dome 14 and also in a form-fitting manner around the coolant tank 16 and the collecting tube 17. An elastic compensating element 18, which is inserted into an end wall of the fastening and connecting element 15, bears—though this is not visible—against the end face of the coolant tank 16 and ensures tolerance compensation of the two heat exchangers 12, 13. Preferably four elements 4 (in part of mirror-symmetrical design) are used for the assembly of the two heat exchangers 12, 13.
FIG. 6 shows the fastening and connecting element 15 as an individual part in an isometric illustration. The element 15 has a fastening part 15 a with a U-shaped profile 15 b and a fastening opening 15 c. The fastening profile 15 b engages over the screw dome 14 (cf. FIG. 5); a self-tapping screw (not illustrated) is inserted through the fastening opening 15 c. The element 15 is thereby fastened in a form-fitting and force-fitting manner to the assembly carrier 11. The element 15 also has two pockets 15 d, 15 e which are provided with two receiving openings—not illustrated here—and which are arranged adjacent to one another. The elastic compensating element 18 is inserted into the pocket 15 e.
FIG. 7 shows another perspective of the element 15 which has been rotated approximately through 180° about a vertical axis which corresponds approximately to the axis of the elastic compensating element 18. The same reference symbols are again used for identical parts. In this illustration, it is possible to see the two receiving openings 15 f, 15 g which are arranged adjacent to one another and which correspond to the pockets 15 d, 15 e. The elastic compensating element 18 in the pocket 15 e ensures compensation of different expansions of the two heat exchangers 12, 13. The shape and size of the two receiving openings 15 f, 15 g are adapted to the respective heat exchanger or its collecting tanks or collecting tubes. The element 15 can also be produced as a re-usable plastic injection-molded part.

LIST OF REFERENCE SYMBOLS

1 Cooling module
2 Coolant cooler
3 Condenser
4 Fastening and connecting element
4 a Fastening part
4 b Receiving opening
4 c Receiving opening
4 d Partition
4 e Tank base
4 f Opening
5 Latching connection
6 Module carrier
7 Coolant tank (plastic)
8 Screw dome
9 Collecting tube (condenser)
10 Front module
11 Assembly carrier
12 Coolant cooler
13 Condenser
14 Screw dome
15 Fastening and connecting element
15 a Fastening part
15 b Fastening profile
15 c Fastening opening
15 d Pocket
15 e Pocket
15 f Receiving opening
15 g Receiving opening
16 Coolant tank (aluminum)
17 Collecting tube
18 Compensating element

Claims

1. A fastening and connecting element for fastening and connecting heat exchangers of a heat exchanger arrangement in a motor vehicle, characterized by at least one receiving opening for receiving a heat exchanger in a form-fitting manner, and by a fastening part with a fastening profile which can be joined to a mating profile.

2. The fastening and connecting element as claimed in claim 1, wherein the at least one receiving opening has a C-shaped profile for receiving a cylindrical collecting tube.

3. The fastening and connecting element as claimed in claim 1, wherein two identical receiving openings are arranged coaxially in series and are delimited at the end side by a partition.

4. The fastening and connecting element as claimed in claim 1, wherein the fastening profile is embodied as a U-shaped profile with two parallel limbs.

5. The fastening and connecting element as claimed in claim 1 wherein the fastening profile is embodied as a box profile which can be plugged onto a box-shaped stub.

6. The fastening and connecting element as claimed in claim 1, wherein the fastening profile can be screwed to the mating profile, in particular by means of a self-tapping screw.

7. The fastening and connecting element as claimed in claim 1 wherein the mating profile is embodied as a screw dome, in particular composed of plastic.

8. The fastening and connecting element as claimed in claim 7, wherein the screw dome is injection-molded on the collecting tank of a heat exchanger, in particular of a mechanically joined cooler.

9. The fastening and connecting element as claimed in claim 7, wherein the screw dome is injection-molded on an assembly carrier of a front module.

10. The fastening and connecting element as claimed in claim 1, wherein, a second receiving opening is arranged adjacent to the receiving opening, and the two receiving openings are formed so as to be open at the end side at the same side.

11. The fastening and connecting element as claimed in claim 10, wherein the second receiving opening is larger than the first and forms a spatial angle with at least three contact faces for a further heat exchanger, in particular a fully-metal heat exchanger.

12. The fastening and connecting element as claimed in claim 10, wherein an elastic compensating element can be inserted into the receiving opening.

13. The fastening and connecting element as claimed in claim 1, wherein it can be produced in one piece as a plastic injection-molded part.

14. An arrangement of heat exchangers in a motor vehicle, which heat exchangers are connected to one another to form a structural unit or a module, wherein the heat exchangers are connected to one another by means of the fastening and connecting elements as claimed in claim 1.

15. The arrangement as claimed in claim 14, wherein a first heat exchanger is embodied as a refrigerant condenser with collecting tubes and a second heat exchanger is embodied as a coolant cooler with collecting tanks composed of plastic, and the condenser is held by at least two, preferably four fastening and connecting elements which are fastened to the coolant tank of the coolant cooler.

16. An arrangement of heat exchangers, which are connected to form a structural unit or a module, in a motor vehicle, wherein the heat exchangers are connected to one another by means of fastening and connecting elements as claimed in claim 10 and are fastened to an assembly carrier by means of the same fastening elements.

17. The arrangement as claimed in claim 16, wherein a first heat exchanger is embodied as a refrigerant condenser with collecting tanks and a second heat exchanger is embodied as a fully-metal, in particular fully-aluminum heat exchanger, and the collecting tubes and the metal, in particular aluminum collecting tanks are held at the end side and in a form-fitting manner by at least two, preferably four fastening elements.